Curriculum Vitae
Personal informations:
Surname: Di Micco
Birthdate: 27/03/1978
Name: Biagio
Place of birth: Neaples
Curriculum:
12/2000-04/2002
Research activity at CERN in the CHORUS experiment for the search of neutrino oscillation
(CERN supervisor prof. Biagio Saitta). I worked on the alignment and calibration of the CHORUS hadron
spectrometer;
14/11/2001
Graduated in Physics “Magna cum Laued” (110/110 e Lode) at the University of Naples
“Federico II”
Master thesis: “Kinematic measurements in the CHORUS experiment for the search of neutrino oscillations”
Supervisor: Prof. Paolo Strolin (Università di Napoli) and prof. Biagio Saitta (Università di Catania);
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01/2002 - 29/03/2005 Phd in physics: Phd thesis: “Measurement of the branching ratio of the decay η→π γγ and
upper limit on the decay η→3γ” Supervisor: prof. F. Ceradini (Università Roma Tre ).
Research activity in the KLOE experiment: data acquisition, data reconstruction, calibration of the
calorimeter,
01/2005-03/2005 Post-doc position (art. 2222) at the “Laboratorio Nazionale di Frascati” in the KLOE experiment for
0
the measurement of the Br(η→π γγ);
01/04/2005 -31/07/2005 Fellowship for abroad studies given by ”Fondazione Angelo Della Riccia” at the Karlsruhe
0
Institut fuer Kernphysik, for research activity on the f0 contribution to the cross section e+e- → π γγ ;
01/04/2005-31/12/2007 Post-doc contract (Assegno di Ricerca) at the Physics Department of Roma
Tre University for research activity on data analysis in the KLOE experiment;
03/01/2008 -03/01/2010: Post-doc position (Assegno di Ricerca) at the INFN Roma Tre for research activity about
“Study of K and η mesons decays with the KLOE experiment”.
11/01/2010-31/01/2010: Post-doc position at the Physics department of Roma Tre University for research activity on
meson decays produced in electron-positron interaction at DAFNE;
01/02/2010-31/01/2011: Post-doc position at Roma Tre University for “Production of elementary particles at colliders”
working in the ATLAS experiment at LHC.
01/02/2010-31/01/2011: I had an associate position at CERN (INFN CERN associate program) in the ATLAS
experiment for “Calibration of the tracking of the muon spectrometer of the ATLAS experiment and analysis of muons
of high pT produced in heavy quarks and W and Z bosons”.
01/02/2011-31/01/2013 I had a research fellowship position at CERN (CERN research fellow) for the duration of two
years in the ATLAS experiment, working mainly in the search and discovery of the Higgs boson in the WW final state.
04/2012 - Researcher position at Roma Tre University.
Experiments and research interests.
2002-2010 KLOE experiment at the Frascati Phi factory DAFNE: Light meson hadronic physics and scalar mesons.
2011-Today ATLAS: Higgs boson search and discovery in the WW channel, measurements of properties and
production mechanism in the WW channel.
Coordination responsibility
01/01/2005-31/12/2008 I was convener of the analysis group on Hadronic Physics of the KLOE
experiment.
03/2011- 09/2012 I was MC responsible for the Higgs group, for the preparation and definition of the signal and
background samples for the Higgs boson search and discovery in all decay channels.
01/10/2012- 31/09/2013 I was convener of the HSG3 group working on all the aspects related to the search and
measurements of the Higgs boson in the WW decay channel.
3/2012-4/2014 ATLAS contact person for the gluon fusion subgroup of the LHC Higgs cross section working group.
Edited papers (paper for which I was editor, corresponding author or main contributor).
1) ATLAS Collaboration, “Observation and measurement of Higgs boson decays to WW with the ATLAS detector” ,
accepted by PRD (2014) [arXiv:1412.2641 ] [Editor, Analysis setup and optimization]
2) ATLAS Collaboration, “Measurements of Higgs boson production and couplings in diboson final states with the
ATLAS detector at the LHC” [Phys. Lett. B 726 (2013) 88] [Analysis setup and optimisation of the WW channel,
convener of the H->WW group]
3) ATLAS Collaboration, “Evidence for the spin-0 nature of the Higgs boson using ATLAS data” [Phys. Lett. B726
(2013) 120] [signal samples production, WW background treatment, convener of the H->WW group]
4) ATLAS Collaboration, “Observation of a New Particle in the Search for the Standard Model Higgs Boson with the
ATLAS Detector at the LHC” [Phys. Lett. B716 (2012) 1] [Signal and background samples production, WW
background normalisation and uncertainty, MC responsible of the Higgs group]
5) ATLAS Collaboration, “Search for the Standard Model Higgs boson in the H→WW*→lnulnu decay mode with 4.7
fb−1 of ATLAS data at √s = 7 TeV” [Phys. Lett. B716 (2012) 62 [Background normalisation and uncertainties]
6) ATLAS Collaboration, “Search for the Higgs boson in the H → WW(*) → l nu l nu decay channel in pp collisions at
√s = 7 TeV with the ATLAS detector” [PRL 108 (2012) 111802] [Background normalisation and uncertainties]
7) ATLAS Collaboration, “Measurements of the electron and muon inclusive cross-sections in proton-proton collisions
at √s = 7 TeV with the ATLAS detector [Phys. Lett. B707 (2012) 438] [For muons: analysis setup and running,
production of the final results, editor of the paper]
8) B. Di Micco, et al., “η, η' mixing angle and η' gluonium content extraction from the KLOE Rf measurement”, Eur.
Phys. J. A38 (2008) 129 (selected contribution from Hadron 07 papers with peer review) (B. Di Micco corresponding
author);
9) KLOE collaboration, “A global fit to determine the pseudoscalar mixing angle and the gluonium content of the η'
meson”, JHEP 0907 (2009) 105 ( corresponding author);
10) KLOE collaboration, “Precise measurements of the η and the neutral kaon meson masses with the KLOE detector”
JHEP 0712 (2007) 073 (corresponding author);
11) KLOE collaboration, “Upper Limit On The η→γγγ Branching Ratio With The Kloe Detector”; Phys. Lett. B591
(2004) 49-54 (corresponding author);
12) KLOE collaboration, “Upper Limit On The η → π+π- Branching Ratio With The Kloe Detector; Phys. Lett. B 606
(2005) 276-280 (main analysis author);
Contribution in volume.
1) Diglio S, Di Micco B et al., Handbook of LHC Higgs cross sections: 2. Differential Distributions. p. 122-133,
Ginevra Scientific Information Service,
ISBN:978-92-9083-371-0, doi: 10.5170/CERN-2012-002.
2) De Florian D, Di Micco B et al., Handbook of LHC Higgs cross sections: 3. Higgs
properties. p 20-50, Ginevra Scientific Information Service, ISBN: 978-92-9083-289-5, doi: 10.5170/CERN-2013-004.
Seminars
1: CERN, EP/PP seminars “Study of Phi meson radiative decays at Kloe, η/η' mixing angle and η' gluonium content” ,
CERN - Geneva 28-09-2010
2: Laboratorio Nazionale di Frascati, LNF-Italy: “Event Generators for the Higgs Boson Search at the LHC”, Frascati
16-05-2012
3: The Galileo Galilei Institute for Theoretical Physics: “Updated (HPC) Higgs results - ATLAS” - Arcetri, Florence 08-10-2012
4: Università degli Studi di Roma Tre: “Misura degli accoppiamenti dell’Higgs e implicazioni su modelli di nuova
fisica nell’esperimento ATLAS” - Roma (Italy) 01-04-2014
5. The University of Texas: “Higgs Physics at Run-1 and prospects” - Arlington (Texas - US) 05/03/2015
Conference talks
[1] “Higgs 125 GeV”, B. Di Micco at “The LTS1 2014 - Workshop on the Long Term Strategy of INFN-CSN1. The
next 10 years of accelerator based experiments.”,
La Biodola, Italy - May 22-24, 2014
[2]
“Combinations of Results of Higgs Productions in all decay channels at LHC.”, B. Di Micco in Proceedings
of “The 49th Rencontres de Moriond: “2014 QCD and High Energy Interactions”,
edited by: E. Augé, J. Dumarchez and J. T. T. Vân, La Thuile, Aosta Valley, Italy - March 22-29, 2014
[3] “Search for the Standard Model Higgs boson in the H→WW→lνlν, lνqq decay modes with the ATLAS detector”,
B. Di Micco in Proceedings of
“The XXXVI International Conference on High Energy Physics”, ICHEP 2012, Melbourne, Australia - July 4-11, 2012
PoS (ICHEP2012) 044
[4] “ATLAS Standard Model Results.”, B. Di Micco at “Beyond the Standard Model: Results with the 7 TeV LHC
Collision Data”, Trieste, Italy - September 19, 2011
[5] "KLOE results on light meson properties", B. Di Micco in proceedings of “The 2009 Europhysics Conference on
High Energy Physics”, Krakow, Poland, 16 - 22 July 2009, Pos (EPS-HEP 2009) 046
[6] “Calibration and performances of the KLOE calorimeter”, B. Di Micco in proceedings of the “10th International
Conference on Instrumentation for Colliding Beam Physics (INSTR08)”, Novosibirsk, Russia, 25 February - 5 March
2008,
Nucl. Instrum. Meth. A598 (2009) 239;
[7] “Scalar mesons couplings to pions and kaons with KLOE.”, B. Di Micco et al. in Proceedings of the “Symposium
on Meson Physics: extended COSY-11 collaboration meeting”, Krakow, Poland, 1-4 October, 2008, Acta Phys. Polon.
Supp. B2 (2009) 113.
[8] “Measurement of the pseudoscalar mixing angle and the eta-prime gluonium content with the KLOE detector”, B.Di
Micco in Proceedings of the “Symposium on Meson Physics: extended COSY-11 collaboration meeting”,
Krakow, Poland, 1-4 October, 2008, Acta Phys. Polon. Supp. B2 (2009) 63;
[9] “KLOE results on light meson spectroscopy”, B. Di Micco in proceedings of “International Workshop on e+ecollisions from Phi to Psi”, LNF - Italy, 7-10 April, 2008, Nucl. Phys. Proc. Suppl. (2008) 181;
[10] “Determination of the BR ratio RΦ = Br(Φ → η'γ)/Br(Φ → ηγ) and measurement of the η mass at KLOE” in
proceedings of “XII International Conference on Hadron Spectroscopy- Hadron 07”, Frascati, Italy, 8-13 October, 2007
Ed. L. Benussi et al., Frascati Physics Series Vol. XLVI (2007), pp: 465-472;
[11] “Recent KLOE results”, B. Di Micco in proceedings of the “13th Lomonosov Conference on Elementary Particle
Physics: Particle Physics on the EVE of LHC”, Moscow, Russia, 23-29 August, 2007
ed. Alexander Studenikin, World Scientific, p. 282;
[12] “η physics and Φ radiative decays at KLOE”, B. Di Micco, in proceedings of “QCD and High Energy Hadronic
Interactions 2007” (Moriond QCD 2007) , La Thuile, Italy, 17-24 March, 2007
edited by Etienne Augé, Bolek Pietrzyk and Jean Tran Thanh Van, The Goi Publishers – 2007;
[13] “A new FLUKA simulation of the KLOE calorimeter”, B.Di Micco et al., in proceedings of “10th Topical Seminar
on Innovative Particle and Radiation Detectors”, Siena, Italy, 1-5 October 2006, Nucl. Phys. Proc. Suppl. 172 (2007)
243;
[14] “KLOE results on η and η' physics”, B. Di Micco in proceedings of 33rd International Conference on High Energy
Physics – ICHEP '06, Moscow 26 July – 2 August 2006,
editor: A. Sissakin, G. Kozlov, E. Kolganova published by World Scientific;
[15] “The η → π0γγ, η/η' mixing angle and the η mass measurement at KLOE”, B. Di Micco in proceedings of “Eta05
Workshop on Production and Decay of η nd η’ Mesons”, 15-18 September 2005, Jagellonian University, Cracow,
Poland
Acta Phys. Slov. 56 (2005) 403-409;
[16] “Light meson spectroscopy with the KLOE experiment”, B. Di Micco in proceedings of “32nd International
Conference of High Energy Physics (ICHEP 04)”, Beijin, China, 16-22 August 2004”;
ed. By H. Chen, D. Du, W. Li, C. Lu Hackensack, World Scientific, 2005 2nd Volume, hep-ex/0410072;
[17] “Progress on Φ radiative decays with the KLOE experiment”, B. Di Micco in Proceedings of “DAFNE 2004:
Physics at Meson Factories”, LNF-Frascati, Italy 7-11 June, 2004, Frascati Physics Series Vol. XXXVI;
[18] “η decays studies with KLOE”, B. Di Micco in “Mini-Proceedings of the Fourth International Workshop on Chiral
Dynamics: theory and experiment (CD2003)”, University of Bonn, Germany - 8-13 September, 2003 (hep-ph/
0311212);
[19] “The η → π0γγ branching ratio and the η mass measurement.”, B. Di Micco in proceedings of “The Second
International Workshop on Eta Meson Physics”, Peniscola, Spain, 10-11 May, 2007 (arXiv:0710.1809v1);
Talks at workshops
[1] “ATLAS Jet-Veto Study in RUN-1 and Wishlist for RUN-2”, B. Di Micco in “Higgs (N)NLO MC and Tools
Workshop for LHC RUN-2”- CERN, Ginevra, 17-19 December, 2014
[2] “ggF”, B. Di Micco in “The 7th Workshop of the LHC Higgs Cross Section Working Group”, CERN, Ginevra, 5-6
December, 2012.
[3] “Higgs exclusive channels: WW”, at “The 5th Workshop of the LHC Higgs Cross Section Working Group”, LAL,
Orsay, 21 November, 2011.
Posters
“Measurement of the inclusive muon differential cross-sections with the ATLAS detector at LHC”, PoS EPS-HEP
2011.
The XXI International Europhysics Conference on High Energy Physics, July 21-27, 2011, Grenoble, France
Memebrship of international physics nerworks
01/2003- 12/2007 Member of the “η physics network”: International network between theoretical and experimental
physics that works on production and decays of η mesons. It is part of the ”Hadron Physics” EU Project financed by
the FP6 program;
01/2009-01/2012 Member of the “Primenet- Meson Physics in Low energy QCD”, belonging to the HadronPhysics2
project financed by the FP7 EU program.
Research activity
Present actvity (Measurement of the Higgs couplings using the WW channel).
I am actually working in the ATLAS experiment of the Large Hadron Colliders. I just finished the analysis of the RUN
1 LHC data for the measurement of the Higgs production channels with the H→WW production channel.
I worked on the ggF and VBF production channels being editor of the paper on the observation of the Higgs boson in
the WW channel, and working mainly on the statistical interpretation of the results, the estimation of the theoretical
uncertainties on the gluon fusion signal acceptance in both the ggF and VBF channels,
the estimation of the uncertainties on the WW background normalisation, and the design and optimisation of the
analysis in both the ggF and VBF. I am actually contributing to the editing of the paper for the VH production channel,
where I worked mainly on
the statistical treatment and the combination with the ggF and VBF channels.
I am also member of the Editorial Board for the measurement of the ttH production in the multi leptonic final state,
channel that is dominated by the decay of the Higgs boson to WW).
Higgs search and discovery in the WW→lνlν channel.
Starting from the year 2011 I worked in the search for the Higgs boson in the H→WW→lνlν channel. The analysis is
based on the search for two isolated leptons and high missing ET from the undetected neutrinos. The main
backgrounds are the non resonant WW production pp→WW→lνlν, the top pair production pp→ttbar→W+W-bb. In
order to reject the top background and to separate regions with different signal over backeround ratio (allowing to
improve the analysis sensitivity), the data sample is divided in jet multiplicity bin, selecting jets with pT > 25 GeV.
The irreducible WW background is rejected applying cuts on the azimuthal angle of the lepton pair (Δϕll) and on the
invariant mass of the lepton pair mll. In fact the spin 0 nature of the Higgs boson and the V-A structure of the weak
interaction in the W decay favour small opening angle and so small
Δϕll and mll. These variables will be called
topological in the following.
At the beginning of 2011 I worked mainly in the event scanning of the interesting candidates to identify the source of
observed excesses, in particular studying the lepton quality (in particular the muons) and the performances of the
algorithm looking for jet from primary vertex (the so called Jet Vertex Fraction algorithm). Then I worked on the cut
optimisation, in particular the definition of the MET cut and of the topological variables.
At middle of 2011 I started to look in particular at the normalisation of the WW background and the uncertainty related
to its estimation. Being it an irreducible background its yield must be predicted from theory or extrapolated from
control regions defined using the topological variables mainly affected by theoretical uncertainties. Therefore I worked
in particular on the estimate of the theoretical uncertainty rising from a direct estimate of the background in jet bins and
an extrapolation from jet binned control region. The definition of the background normalisation were primary linked to
this study. For the low mass Higgs, an high mll (>80 GeV) control region is completely signal free and allows a safe
normalisation of the WW background in for each jet multiplicty bin. This allows to reduce the uncertainty coming from
the jet binning that are both purely theoretical (being the jet multiplicity largely affected by scale uncertainty) and
experimental like the jet energy scale. At high mass, the signal shifts at higher value of mll (due to the higher mass and
the higher momenta of the leptons) contaminating the background region, therefore an absolute normalisation of the
WW yield is more appropriate in order to preserve an adequate signal acceptance.
The results of this study were also part of intensive discussion with the theory community inside the LHC Higgs Cross
Section working group, and were reported in the second volume of the LHC Cross Section Working Group report. It has
been published in the first large exclusion range of the Higgs boson from the ATALS experiment in the most interesting
range allowed by the electroweak fit excluding the Higgs boson in the range 145 GeV < mH < 206 GeV at 95% C.L.,
where the low sensitivity at high mass is mainly due to the choice, in this paper, to use a similar normalisation strategy
for the WW background at high mass and at low mass. The high mass approach were changed in the second relevant
publication in this channel where the search was completed on the full 2011 collected dataset excluding an Higgs boson
in the range 133 GeV < mH < 261 GeV. The WW was normalised using the MC yield thanks the proper evaluation of
the theoretical error on the exclusive jet yield of the WW process. The expected exclusion for a SM Higgs boson was
127 GeV < mH < 233 GeV. The higher exclusion limit respect to the observed was due to an excess of events at 1σ
level in the low mass region. These results were presented by myself at the ICHEP 2012 conference.
During the 2012 I continued to work mainly on theoretical aspects related to the Higgs boson search inside the WW
group, and followed closely the analysis to identify problems and help in providing solutions. I was editor of the
internal note regarding theoretical uncertainties and aspects of the Higgs boson search from both the signal and the
background prospective, I evaluated the uncertainty related to the main background estimated from MC and correction
factors like WW, Wγ and Wγ*. I became ATLAS contact for the Higgs cross section working group, responsible to
provide solutions agreed by the ATLAS and CMS collaborations, in particular regarding the gluon gluon fusion
subgroup. In particular we defined the prescription for the utilisation of the ggF cross sections using the Complex Pole
Scheme for the Higgs width in the whole mass range, for the utilisation of the Higgs pT provided at NLO+NLL in the
Powheg MC and the utilisation of the finite heavy quark correction in the gg loop.
In this period I was also MC responsible for the Higgs group, responsibility that consists in choosing the most
appropriate generators for the signal and background process, the definition of efficient filters for the simulation of the
background and the submission of the relevant requests to the production group.
This work has been an important contribution to the paper in which an almost 6σ deviation from the null signal
hypothesis has been made public by the ATLAS collaboration (4). The excess in the decay channels γγ, ZZ and WW
was compatible with the expectation of a SM Higgs boson of mass 126 GeV. The WW channel has the better accuracy
in the determination of the signal strength µ=σmeasured/σexpected from SM. The lνlν decay channel dominates the
sensitivity and the observed excess in the WW channel.
In September of 2012 my contribution to the Higgs search in the WW channel has been recognized by the collaboration
that nominated myself convener of the Higgs subgroup working in the WW channel for the end of 2012 and 2013. The
mandate of the group was to measure the properties of the observed boson in the WW channel, the observation of
further production channel (VBF, WH/ZH) and the search for heavier Higgs like boson decaying to WW. At the
Moriond QCD conference the results of the HSG3 group in the search for the Higgs boson were presented. An
observed excess of 4σ has been reported combining the 0, 1 and 2 jet channels, while a VBF signal of 2.5σ has been
observed. Moreover the spin 2+ minimal coupling model has been excluded at > 95% C.L. Combining the WW result
with the γγ results a VBF observation at 3.1σ has been reported. The set of WW results, produced under my personal
coordination and responsibility, together with the γγ and ZZ channels, give a clear identification of the observed excess
as the Higgs boson responsible of the electroweak symmetry breaking mechanism, as published in the Higgs production
combination paper and the determination of the spin and parity of the Higgs boson (paper 2) and 3) )
Measurement of the muon inclusive differential production cross section
In the first year of my activity in ATLAS I worked on the study of the performance of muon reconstruction, working at
the validation of the first W and Z candidate and on the measurement of the inclusive muon cross section.
The last furnishes the differential production cross section of muons in pp interaction as a function of the muon
transverse momentum in the range 4-100 GeV. The region pT < 20 GeV is dominated by the B and C meson decays,
while the high pT region is dominated by the W and Z decays. Characteristic of the measurement in the high pT region
has been to measure the cross section without isolation cuts on the muons, that suppresses the b and c quark
contribution, and without further selection cuts dependent from peculiar production and decay mechanism of the
signal (like missing Et in the W). This has allowed to reduce the systematics due to the theory uncertainties. The
measurement has been compared with QCD model at the NLO + NLL accuracy, through the FONLL framework, and to
MC predictions from Powheg+Pyrhia, Powheg+Herwig and Pythia. The accuracy of the measurement, at level of 10%
in the main part of the range, has allowed to probe in particular the NLL resummation in QCD in the heavy quark
production, being the data well compatible with NLO+NLL and in disagreement with the central value of pure NLO
calculation. This has been possible thanks to the exploration of the high pT spectrum (pT > 30 GeV) where the
deviation between the NLO+NLL and NLO calculation becomes larger. A deep discussion with theoretician has been
part of this work, in order to obtain the needed theoretical predictions from the FONLL framework, that can be
recognised in the acknowledgement to myself in the relevant paper (CERN-PH-TH-2011-227). The analysis has been
published in Phys. Lett. B, I was one of the editors of the paper inside the ATLAS collaboration and wrote the sections
regarding the muons in particular. My work concerned the study of all the aspects of the measurement, in particular the
measurement of the trigger efficiency, the data driven background determination, the combination of all the ingredients
to extract an unfolded cross section, the analysis of the data and the comparison with the theoretical models. The
measurement has been presented in several conferences by the ATLAS collaboration in 2011, in particular it was
presented in a poster at EPS2011 by myself, whose proceedings have been published, and presented by myself at the
“Beyond the Standard Model: Results with the 7 TeV LHC Collision Data”.
Experimental activity in the KLOE experiment.
Before joining the ATLAS experiment I worked in the KLOE experiment at the Frascati phi factory DAFNE. I was
convener of the Hadron physics group of KLOE and worked on the measurement of the Br(η→π0γγ),
the measurement of the η mass, the extraction of the η’ gluonium content and the search for C and P violating
interactions in the η→γγγ and η→π+π- decays.
Experience in hardware activity.
From 2006 to 2008 I worked in a research project for the development of a lead scintillating fiber calorimeter read by
multi-anodes photomultipliers tubes (Ha-mamatsu R7600 M16, R8900-M16): “Calorimetro a fibre scintillanti con
lettura a immagine e risoluzione al di sotto di un nanosecondo per la fisica delle particelle elementari”, research project
of Ministero dell'Istruzione, Università e ricerca (http://webusers.fis.uniroma3.it/~dimicco/ prin2006).
The results have been presented at the conferences indicated in the relative section.
Didactic activity:
2003- Corso di Esercitazioni per “Elettromagnetismo II”, Università Roma Tre;
2003- Corso di Esercitazioni per “Introduzione alla Fisica Nucleare e Subnucleare”, Università Roma Tre;
2004 – Corso di Esercitazioni per “Elettromagnetismo II”, Università Roma Tre;
2004- Corso di Esercitazioni per “Introduzione alla Fisica Nucleare e Subnucleare”, Università Roma Tre;
2005 – Corso di Esercitazioni per “Introduzione alla Fisica Nucleare e Subnucleare”, Università Roma Tre;
2006 – Corso di Esercitazioni per "Laboratorio di Calcolo", Università Roma Tre;
2007 – Corso di Esercitazioni per “Tecniche Sperimentali in Fisica Nucleare e Subnucleare”, Università Roma Tre;
2008 – Corso di Esercitazioni per “Fisica delle Particelle Elementari”, Università Roma Tre;
2012-13: Lectures for “Fisica delle Particelle Elementary” (Physics of Elementary Particles), Università Roma Tre-
(Department of Mathematics and Physics);
2013-14 Corso di Esercitazioni per “Fisica nucleare e subnucleare”, corso di Laurea in Fisica; esercitazioni corso
“Elementi di
Fisica”, corso di Laurea in Ottica e Optometria;
2013-14, 2014-2015: Professor of the course: “Thermodynamics” - ARCADIA University College of Global Studies at Department of Mechanical Engineering, Università Roma Tre;
2014-15: Esercitazioni corso “Elementi di Fisica Generale II”.
Graduate student supervision
I.
II.
III.
I. V. Bortolotto, “Misure su un prototipo di calorimetro a segmentazione fine”, relatori prof F. Ceradini,
dott. B. Di Micco.
II. S. Troisi, “Lettura di un calorimetro a fibre scintillanti con fotomoltiplicatori multiano- do” , relatori
prof. F. Ceradini, dott. B. Di Micco.
G. Silli, “Ricerca del Decadimento del Leptone Tau in Tre Muoni Mediante l’Analisi dei Dati Raccolti
dall’Esperimento ATLAS al LHC”, relatore B. Di Micco.
Phd students supervision.
1. “Precision Higgs boson Coupling Measurement with the H->WW decay with the ATLAS detector at LHC”, Hee
Yeun Kim, University of
Texas at Arlington (Texas, USA), 5 Marzo 2015 and member of the PHD committee
Full publication list.
https://inspirehep.net/search?p=find+a+Di+Micco